SU1696755A1 - Hydraulic system - Google Patents

Abstract

The invention relates to mechanical engineering hydraulic drive and can be used in hydraulic systems of reversible hydraulic motors with automatic control, in particular in hydraulic control systems of hydraulic motors of self-cleaning filters. The purpose of the invention is to increase reliability in operation by simplifying the design. The hydraulic system comprises a spring-loaded distribution valve spool 1 with control cavities, two three-line distributors 2 and 3, and a piston 15 with a stem with two working chambers placed in a common housing. Each valve 2 (3) is connected to the pressure source by the first line, the drain line to the second line, and the third valve to the control cavity of the spool 1 and the spring cavity of the other valve 3 (2), with the hydraulic motor chambers connected to the pressure source and the drain through the valve 1. This scheme ensures a reliable start-up of the system, since the spring of the spool 1 ensures its fixed position when the load is removed in the system. 1 il. Yu L (L S Os chae o VI ate

Description

The invention relates to mechanical hydraulic drive and can be used in hydraulic systems of reversing hydraulic motors with automatic control, in particular in hydraulic control systems of hydraulic motors of self-cleaning filters.

The purpose of the invention is to increase the reliability of work by simplifying the design.

The drawing shows a diagram of the hydraulic system.

The hydraulic control system of the hydraulic motor of the self-cleaning filter contains a distribution valve 1 with control cavities, two spring-loaded distribution valves 2 and 3, designed as three-way valves, located in the housing of the hydraulic engine covers 4, the channels of the pressure system 5 and the drain system 6, the fixation system consisting from systems 7 and 8. System 7 connects the spring cavity of valve 2, the left control cavity of spool 1 and protorki valve plunger 3, System 8 connects the spring cavity of valve 3, the right control cavity of the spool 1 and the groove of the plunger of the valve 2. The spool 1 serves to connect the working cavities of the hydraulic cylinder with a source of pressure and discharge through the channels 13 and 14. Inside the plunger of the spool 1, a channel 9 is made, which connects the extreme grooves of the plunger. A spring 17 is placed in the body of spool 1, which sets the plunger to the extreme position when there is no (equal) pressure in the control cavities of spool 1. Through channels 10 m 11, oil enters and is discharged from the cavities of the hydraulic motor. Valves 2 and 3 are designed to move the plunger of the spool 1 and fix it to the extreme positions by communicating the control cavities of the spool 1 with a pressure source and a drain. The valves of valves 2 and 3 are loaded with springs. The adjustment screw 12 controls the average speed of the piston 15 by varying the channel cross section of the system at the inlet. The piston 15 has a stop 16.

The system works as follows.

In the initial position, there is no oil pressure in the hydraulic engine systems, the spool 1 is in the extreme left position, valves 2 and 3 are spring-loaded in the stop, the piston 15 does not touch valves 1 and 3. The hydraulic engine starts by creating pressure and discharge pressure in the channels 10 and 11. The oil enters the left undercut.

the plunger of the spool 1 and through the channels 9 and 13 into the right cavity of the hydraulic cylinder. The pressure in this cavity increases, and the piston 15 begins to move to the left, the oil is forced out of

the left cavity of the hydraulic cylinder through the channel 14 and the middle groove of the plunger of the spool 1 into the drain channel 10. At the same time, the valve plunger 2 is pressed with oil pressure, overcoming the spring action, is pressed to

0 stop to the right, together with the pressure system with the system 8. System 7 through the recess of the valve plug 3 communicates with the drain system 6. The resulting differential pressure in the control cavities of the spool

5 1, the cavities of the hydraulic cylinder and the spring cavity of the corresponding valve fixes the plungers of the spool 1 and valves 2 and 3 in their positions. The piston 15 pin 16 moves the plunger of the valve 3 to the left until it stops, which leads to the separation of the drain system

0 from system 7 and its last communication with the pressure system 5. Oil under pressure enters the left control cavity of spool 1 and the spring cavity of valve 2, discharging the plungers from axial hydrostatic forces. The plunger of the valve 2 by the spring force moves to the left against the stop, the pressure system compartment from the system 8 and the latter connected to the drain system. The axial hydrostatic force arising in this case moves the plunger of the spool 1 to the right against the stop, overcoming the action of the spring 17, and fixes the plunger in this position. The right cavity of the hydraulic cylinder is communicated with the drain, and the left

5 - with pressure system. The oil pressure in the left cavity of the hydraulic cylinder increases and moves the piston to the right. Valve plug 3 is fixed in the leftmost position with a pressure difference in the left cavity

0 hydraulic cylinders and in the spring cavity of the valve-3. When the piston 15 approaches the valve 2 and its plunger moves to the extreme right position, the drain system is disconnected from the system 8 and the latter is connected to the pressure system. The plungers of the spool 1 and valve 3 are unloaded from the axial force, and the plunger of the valve 3 is forced by the spring force to the right against the stop, the compartment from the pressure system of the system 7 and its connection to the drain. At the same time, in the left control cavity of the spool 1, the pressure pressure decreases to the discharge pressure and the plunger of the spool 1 under the action of the spring 17 and the pressure difference in

5, the control moves to the extreme left position, connects the right cavity of the hydraulic cylinder with the pressure system, and the left one - with the drain system. The following is a repetition of the processes described above.

Claims (1)

Invention Formula A hydraulic control system of a self-cleaning filter hydraulic motor comprising a distribution valve placed in a common housing with control cavities, two spring-loaded distribution valves and a piston with a rod connected to the actuator, and the control valves are installed in the housing with the possibility of interaction with the piston forming two working chambers associated with pressure source and discharge through distribution valve, yn0 cavities Equipments of which, in turn, are connected with a source of pressure and discharge through distribution valves, which, in order to increase reliability in operation by simplifying the design, the distribution valve is fitted with a spring installed in one of the control cavities, each distribution valve made in the form of a three-way distributor, one line of which is connected to a pressure source, the second - with a drain, and a third - with a control cavity of the distribution spool and a spring cavity of another distribution dividing valve.